There are provided a method and a device for feeding electric power to a vehicle, etc. installed with a solar photovoltaic power generation panel employing a multi-junction solar cell in a non-contact manner by irradiating light to the solar photovoltaic power generation panel. In the method, light containing a wavelength component absorbed by each of all solar cell layers laminated in a multi-junction solar cell of the vehicle, etc. is projected from a light-projecting device to the light receiving surface of the multi-junction solar cell; and electric power generated by the irradiation of light from the multi-junction solar cell is taken out. The device includes structures for emitting light containing a wavelength component absorbed by each solar cell layer laminated in the multi-junction solar cell, and for irradiating the light to a light receiving surface of the multi-junction solar cell.
Legal claims defining the scope of protection, as filed with the USPTO.
2. The method of claim 1, wherein the light projected from the light-projecting device contains, as the wavelength component absorbed by each of the solar cell layers, photons having energy which exceeds beyond a band gap of the corresponding solar cell layer.
4. The method of claim 3, wherein the lower limit wavelength [nm] is h·c/(e·Eg) [nm]−100 [nm].
5. The method of 1, wherein the light intensity of each of the wavelength components is adjusted such that a difference in a number of photons absorbed in each of the said solar cell layers given by: Pi·Ti/(h·c/λi) with a light intensity Pi of each of the wavelength components, a transmissivity Ti at which each of the wavelength components reaches the corresponding solar cell layer, the Planck constant h [Js], the speed of light c[m/s] and a wavelength of each of the wavelength components becomes within a predetermined allowable range.
6. The method of claim 1, wherein the light intensity of the wavelength component absorbed by each of the solar cell layers contained in the light projected from the light-projecting device is adjusted such that a difference of electric currents generated in the respective solar cell layers becomes within a preset allowable range.
7. The method of claim 1, wherein the light projected by the light-projecting device is laser light.
8. The method of claim 1, wherein the light projected by the light-projecting device is LED light.
9. The method of claim 1, wherein the apparatus is a vehicle or a mobile body, and the light-projecting device is a device which projects light to the solar photovoltaic power generation panel of the vehicle or the mobile body, the vehicle or the mobile body existing on a ground surface or a water surface.
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April 20, 2021
June 13, 2023
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